中国土壤与肥料
中國土壤與肥料
중국토양여비료
Soils and Fertilizers Sciences in China
2015年
5期
67-71,12
,共6页
王孝娣%刘凤之%史祥宾%王宝亮%郑晓翠%王海波
王孝娣%劉鳳之%史祥賓%王寶亮%鄭曉翠%王海波
왕효제%류봉지%사상빈%왕보량%정효취%왕해파
氨基酸硒%桃%设施栽培%环境适应性%弱光%低浓度二氧化碳%高温%高湿
氨基痠硒%桃%設施栽培%環境適應性%弱光%低濃度二氧化碳%高溫%高濕
안기산서%도%설시재배%배경괄응성%약광%저농도이양화탄%고온%고습
selenoamino acids ( Se-aa)%peach%protected culture%environmental adaptability%weak light%low concentra-tion of CO2%high temperature%high humidity
探讨了硒提高桃适应设施栽培环境的效果, 为提高设施桃的环境适应能力和改善果实品质调控技术提供依据. 以4年生桃设施栽培的主栽品种中油4号油桃和春雪毛桃为试验材料, 研究氨基酸硒对桃光合作用光响应曲线、二氧化碳响应曲线、 温度响应曲线和蒸腾速率的影响. 喷施氨基酸硒使设施桃的光补偿点和二氧化碳补偿点显著降低, 表观量子效率和羧化效率显著提高, 使设施桃净光合速率在高温条件下保持较高数值且呈平稳状态, 显著促进了设施桃的蒸腾作用. 喷施氨基酸硒显著增强了桃对设施弱光、 二氧化碳浓度低、 高温和高湿环境的适应能力, 为设施桃品质的改善奠定了良好基础, 因此, 喷施氨基酸硒是一项切实可行的提高桃对设施环境适应能力的重要农艺措施.
探討瞭硒提高桃適應設施栽培環境的效果, 為提高設施桃的環境適應能力和改善果實品質調控技術提供依據. 以4年生桃設施栽培的主栽品種中油4號油桃和春雪毛桃為試驗材料, 研究氨基痠硒對桃光閤作用光響應麯線、二氧化碳響應麯線、 溫度響應麯線和蒸騰速率的影響. 噴施氨基痠硒使設施桃的光補償點和二氧化碳補償點顯著降低, 錶觀量子效率和羧化效率顯著提高, 使設施桃淨光閤速率在高溫條件下保持較高數值且呈平穩狀態, 顯著促進瞭設施桃的蒸騰作用. 噴施氨基痠硒顯著增彊瞭桃對設施弱光、 二氧化碳濃度低、 高溫和高濕環境的適應能力, 為設施桃品質的改善奠定瞭良好基礎, 因此, 噴施氨基痠硒是一項切實可行的提高桃對設施環境適應能力的重要農藝措施.
탐토료서제고도괄응설시재배배경적효과, 위제고설시도적배경괄응능력화개선과실품질조공기술제공의거. 이4년생도설시재배적주재품충중유4호유도화춘설모도위시험재료, 연구안기산서대도광합작용광향응곡선、이양화탄향응곡선、 온도향응곡선화증등속솔적영향. 분시안기산서사설시도적광보상점화이양화탄보상점현저강저, 표관양자효솔화최화효솔현저제고, 사설시도정광합속솔재고온조건하보지교고수치차정평은상태, 현저촉진료설시도적증등작용. 분시안기산서현저증강료도대설시약광、 이양화탄농도저、 고온화고습배경적괄응능력, 위설시도품질적개선전정료량호기출, 인차, 분시안기산서시일항절실가행적제고도대설시배경괄응능력적중요농예조시.
To study the effects of application of selenoamino acids ( Se-aa) on the physiological parameters of peach tree and its adaptability to the protected cultivation condition, an experiment was carried using two 4-year-old peach ( Prunus persica) cultivars ('No. 4 Zhongyou' nectarine and'Springsnow' peach) which were cultivated in greenhouse as experimental materi-als. The results showed that Se-aa addition significantly decreased light compensation point and CO2 compensation point of peach plant, but significantly increased apparent quantum efficiency and carboxylation efficiency. Meanwhile, Se-aa addition improved net photosynthetic rate of protected peach plant under the condition of high temperature, and significantly improved the peach transpiration. These results fully showed that Se-aa addition significantly enhanced the adaptability of peach to the weak light condition with low concentration of CO2 , high temperature and high humidity under protected cultivation, which could be helpful for improveing the quality of peach fruits. It could be concluded that Se-aa addition could be taken as a practi-cal measure to simultaneously improve adaptability of fruit trees to the environment of protected cultivation.
